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#ifndef LITMUS_BINARY_HEAP_H
#define LITMUS_BINARY_HEAP_H
/**
* Simple binary heap with add, arbitrary delete, delete_root, and top
* operations.
*
* Style meant to conform with list.h.
*
* Motivation: Linux's prio_heap.h is of fixed size. Litmus's binomial
* heap may be overkill (and perhaps not general enough) for some applications.
*
* Note: In order to make node swaps fast, a node inserted with a data pointer
* may not always hold said data pointer. This is similar to the binomial heap
* implementation. This does make node deletion tricky since we have to
* (1) locate the node that holds the data pointer to delete, and (2) the
* node that was originally inserted with said data pointer. These have to be
* coalesced into a single node before removal (see usage of
* __binheap_safe_swap()). We have to track node references to accomplish this.
*/
struct binheap_node {
void *data;
struct binheap_node *parent;
struct binheap_node *left;
struct binheap_node *right;
/* pointer to binheap_node that holds *data for which this binheap_node
* was originally inserted. (*data "owns" this node)
*/
struct binheap_node *ref;
struct binheap_node **ref_ptr;
};
/**
* Signature of compator function. Assumed 'less-than' (min-heap).
* Pass in 'greater-than' for max-heap.
*
* TODO: Consider macro-based implementation that allows comparator to be
* inlined (similar to Linux red/black tree) for greater efficiency.
*/
typedef int (*binheap_order_t)(struct binheap_node *a,
struct binheap_node *b);
struct binheap_handle {
struct binheap_node *root;
/* pointer to node to take next inserted child */
struct binheap_node *next;
/* pointer to last node in complete binary tree */
struct binheap_node *last;
/* comparator function pointer */
binheap_order_t compare;
};
/**
* binheap_entry - get the struct for this heap node.
* Only valid when called upon heap nodes other than the root handle.
* @ptr: the heap node.
* @type: the type of struct pointed to by binheap_node::data.
* @member: unused.
*/
#define binheap_entry(ptr, type, member) \
((type *)((ptr)->data))
/**
* binheap_node_container - get the struct that contains this node.
* Only valid when called upon heap nodes other than the root handle.
* @ptr: the heap node.
* @type: the type of struct the node is embedded in.
* @member: the name of the binheap_struct within the (type) struct.
*/
#define binheap_node_container(ptr, type, member) \
container_of((ptr), type, member)
/**
* binheap_top_entry - get the struct for the node at the top of the heap.
* Only valid when called upon the heap handle node.
* @ptr: the special heap-handle node.
* @type: the type of the struct the head is embedded in.
* @member: the name of the binheap_struct within the (type) struct.
*/
#define binheap_top_entry(ptr, type, member) \
binheap_entry((ptr)->root, type, member)
/**
* binheap_delete_root - remove the root element from the heap.
* @handle: handle to the heap.
* @type: the type of the struct the head is embedded in.
* @member: the name of the binheap_struct within the (type) struct.
*/
#define binheap_delete_root(handle, type, member) \
__binheap_delete_root((handle), &((type *)((handle)->root->data))->member)
/**
* binheap_delete - remove an arbitrary element from the heap.
* @to_delete: pointer to node to be removed.
* @handle: handle to the heap.
* @type: the type of the struct the head is embedded in.
* @member: the name of the binheap_struct within the (type) struct.
*/
#define binheap_delete(to_delete, handle, type, member) \
__binheap_delete((to_delete), &((((type*)((to_delete)->data))->member)), (handle))
/**
* binheap_add - insert an element to the heap
* new_node: node to add.
* @handle: handle to the heap.
* @type: the type of the struct the head is embedded in.
* @member: the name of the binheap_struct within the (type) struct.
*/
#define binheap_add(new_node, handle, type, member) \
__binheap_add((new_node), (handle), container_of((new_node), type, member))
#define BINHEAP_NODE_INIT() { NULL, NULL, NULL, NULL , NULL, NULL}
#define BINHEAP_NODE(name) \
struct binheap_node name = BINHEAP_NODE_INIT()
static inline void INIT_BINHEAP_NODE(struct binheap_node *n)
{
n->data = NULL;
n->parent = NULL;
n->left = NULL;
n->right = NULL;
n->ref = NULL;
n->ref_ptr = NULL;
}
static inline void INIT_BINHEAP_HANDLE(
struct binheap_handle *handle,
binheap_order_t compare)
{
handle->root = NULL;
handle->next = NULL;
handle->last = NULL;
handle->compare = compare;
}
/* Returns true (1) if binheap is empty. */
static inline int binheap_empty(struct binheap_handle *handle)
{
return(handle->root == NULL);
}
/* Update the node reference pointers. Same logic as Litmus binomial heap. */
static inline void __update_ref(struct binheap_node *parent,
struct binheap_node *child)
{
*(parent->ref_ptr) = child;
*(child->ref_ptr) = parent;
swap(parent->ref_ptr, child->ref_ptr);
}
/* Swaps data between two nodes. */
static inline void __binheap_swap(struct binheap_node *parent,
struct binheap_node *child)
{
swap(parent->data, child->data);
__update_ref(parent, child);
}
/* Swaps memory and data between two nodes. Actual nodes swap instead of
* just data. Needed when we delete nodes from the heap.
*/
static inline void __binheap_swap_safe(struct binheap_handle *handle,
struct binheap_node *a,
struct binheap_node *b)
{
swap(a->data, b->data);
__update_ref(a, b);
if((a->parent != NULL) && (a->parent == b->parent)) {
/* special case: shared parent */
swap(a->parent->left, a->parent->right);
}
else {
/* Update pointers to swap parents. */
if(a->parent) {
if(a == a->parent->left) {
a->parent->left = b;
}
else {
a->parent->right = b;
}
}
if(b->parent) {
if(b == b->parent->left) {
b->parent->left = a;
}
else {
b->parent->right = a;
}
}
swap(a->parent, b->parent);
}
/* swap children */
if(a->left) {
a->left->parent = b;
if(a->right) {
a->right->parent = b;
}
}
if(b->left) {
b->left->parent = a;
if(b->right) {
b->right->parent = a;
}
}
swap(a->left, b->left);
swap(a->right, b->right);
/* update next/last/root pointers */
if(a == handle->next) {
handle->next = b;
}
else if(b == handle->next) {
handle->next = a;
}
if(a == handle->last) {
handle->last = b;
}
else if(b == handle->last) {
handle->last = a;
}
if(a == handle->root) {
handle->root = b;
}
else if(b == handle->root) {
handle->root = a;
}
}
/**
* Update the pointer to the last node in the complete binary tree.
* Called internally after the root node has been deleted.
*/
static inline void __binheap_update_last(struct binheap_handle *handle)
{
struct binheap_node *temp = handle->last;
/* find a "bend" in the tree. */
while(temp->parent && (temp == temp->parent->left)) {
temp = temp->parent;
}
/* step over to sibling if we're not at root */
if(temp->parent != NULL) {
temp = temp->parent->left;
}
/* now travel right as far as possible. */
while(temp->right != NULL) {
temp = temp->right;
}
/* take one step to the left if we're not at the bottom-most level. */
if(temp->left != NULL) {
temp = temp->left;
}
//BUG_ON(!(temp->left == NULL && temp->right == NULL));
handle->last = temp;
}
/**
* Update the pointer to the node that will take the next inserted node.
* Called internally after a node has been inserted.
*/
static inline void __binheap_update_next(struct binheap_handle *handle)
{
struct binheap_node *temp = handle->next;
/* find a "bend" in the tree. */
while(temp->parent && (temp == temp->parent->right)) {
temp = temp->parent;
}
/* step over to sibling if we're not at root */
if(temp->parent != NULL) {
temp = temp->parent->right;
}
/* now travel left as far as possible. */
while(temp->left != NULL) {
temp = temp->left;
}
handle->next = temp;
}
/* bubble node up towards root */
static inline void __binheap_bubble_up(
struct binheap_handle *handle,
struct binheap_node *node)
{
/* Note: NULL data pointers are used internally for arbitrary delete */
while((node->parent != NULL) &&
((node->data == NULL) /* let null data bubble to the top */ ||
handle->compare(node, node->parent))) {
__binheap_swap(node->parent, node);
node = node->parent;
}
}
/* bubble node down, swapping with min-child */
static inline void __binheap_bubble_down(struct binheap_handle *handle)
{
struct binheap_node *node = handle->root;
while(node->left != NULL) {
if(node->right && handle->compare(node->right, node->left)) {
if(handle->compare(node->right, node)) {
__binheap_swap(node, node->right);
node = node->right;
}
else {
break;
}
}
else {
if(handle->compare(node->left, node)) {
__binheap_swap(node, node->left);
node = node->left;
}
else {
break;
}
}
}
}
static inline void __binheap_add(struct binheap_node *new_node,
struct binheap_handle *handle,
void *data)
{
/* NULL data pointers are used internally */
if(!data) {
WARN_ON(!data);
return;
}
new_node->data = data;
new_node->ref = new_node;
new_node->ref_ptr = &(new_node->ref);
if(!binheap_empty(handle)) {
/* insert left side first */
if(handle->next->left == NULL) {
handle->next->left = new_node;
new_node->parent = handle->next;
new_node->left = NULL;
new_node->right = NULL;
handle->last = new_node;
__binheap_bubble_up(handle, new_node);
}
else {
/* left occupied. insert right. */
handle->next->right = new_node;
new_node->parent = handle->next;
new_node->left = NULL;
new_node->right = NULL;
handle->last = new_node;
__binheap_update_next(handle);
__binheap_bubble_up(handle, new_node);
}
}
else {
/* first node in heap */
new_node->parent = NULL;
new_node->left = NULL;
new_node->right = NULL;
handle->root = new_node;
handle->next = new_node;
handle->last = new_node;
}
}
/**
* Removes the root node from the heap. The node is removed after coalescing
* the binheap_node with its original data pointer at the root of the tree.
*
* The 'last' node in the tree is then swapped up to the root and bubbled
* down.
*/
static inline void __binheap_delete_root(struct binheap_handle *handle,
struct binheap_node *container)
{
struct binheap_node *root = handle->root;
if(root != container) {
/* coalesce */
__binheap_swap_safe(handle, root, container);
root = container;
}
if(handle->last != root) {
/* swap 'last' node up to root and bubble it down. */
struct binheap_node *to_move = handle->last;
if(to_move->parent != root) {
handle->next = to_move->parent;
if(handle->next->right == to_move) {
/* disconnect from parent */
to_move->parent->right = NULL;
handle->last = handle->next->left;
}
else {
/* find new 'last' before we disconnect */
__binheap_update_last(handle);
/* disconnect from parent */
to_move->parent->left = NULL;
}
}
else {
/* 'last' is direct child of root */
handle->next = to_move;
if(to_move == to_move->parent->right) {
to_move->parent->right = NULL;
handle->last = to_move->parent->left;
}
else {
to_move->parent->left = NULL;
handle->last = to_move;
}
}
to_move->parent = NULL;
/* reconnect as root. We can't just swap data ptrs since root node
* may be freed after this function returns.
*/
to_move->left = root->left;
to_move->right = root->right;
if(to_move->left != NULL) {
to_move->left->parent = to_move;
}
if(to_move->right != NULL) {
to_move->right->parent = to_move;
}
handle->root = to_move;
/* bubble down */
__binheap_bubble_down(handle);
}
else {
/* removing last node in tree */
handle->root = NULL;
handle->next = NULL;
handle->last = NULL;
}
}
/**
* Delete an arbitrary node. We first coalesce, then bubble
* node to delete up to the root, and then delete to root.
*/
static inline void __binheap_delete(
struct binheap_node *node_to_delete,
struct binheap_node *user_of_node,
struct binheap_handle *handle)
{
struct binheap_node *root, *target;
void *temp_data;
/* Position the node to delete at the root. */
/* coalesce: swap nodes with user of the node to delete. */
if(node_to_delete != user_of_node) {
/* we need to take container's memory/node out of the heap,
* so swap with the user of the node
*/
__binheap_swap_safe(handle, user_of_node, node_to_delete);
}
root = handle->root;
/* Move the _node_ to the root */
if(root != node_to_delete) {
__binheap_swap_safe(handle, root, node_to_delete);
node_to_delete = root;
}
node_to_delete = handle->root;
target = node_to_delete->ref;
/* Bubble the data pointer back up to its node, which has already been
* positioned at the root. */
/* temporarily set data to null to allow node to bubble up to the top. */
temp_data = target->data;
target->data = NULL;
__binheap_bubble_up(handle, target);
__binheap_delete_root(handle, node_to_delete);
node_to_delete->data = temp_data; /* restore node data pointer */
}
#endif
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